"Kuku\u013Ea, R\u00F3bert" . "The integration of several unit operations and necessary equipment into a single compact unit shortens transport paths, reduces amount of auxiliary media, increases energetic efficiency, reduces amount of wastes produced etc. Recently we have demonstrated advantages of the control of the rate and yield of immobilised-enzyme reactions in electro-membrane enzyme reactors where the enzyme is entrapped in an unstirred gel slab by application of electric fields. Here an attempt to integrate the electro-membrane reactor with a fuel cell stack in order to build-up an autonomous (independent of external power source) portable multi-functional unit (MFU) is described. The MFU comprises two subunits: the first one that generates the electric current (the fuel cell stack) and the second one that consumes it and simultaneously performs a biotransformation - the reactor. The coupling of both sub-units within this kind of MFU is primarily realized by means of the electric current passing through both parts of the s"@en . . . "A fuell cell and an enzyme electro-membrane reactor combined to a multifunctional unit"@en . "P(GA104/05/2500), P(ME 666), Z(MSM6046137306)" . . "Schoder, T." . . . "Sundmacher, K." . "fuel cell; electro-membrane reactor; multi-functional unit"@en . . "RIV/60461373:22340/05:00014512" . "4"^^ . "A fuell cell and an enzyme electro-membrane reactor combined to a multifunctional unit"@cs . . "A fuell cell and an enzyme electro-membrane reactor combined to a multifunctional unit" . "The integration of several unit operations and necessary equipment into a single compact unit shortens transport paths, reduces amount of auxiliary media, increases energetic efficiency, reduces amount of wastes produced etc. Recently we have demonstrated advantages of the control of the rate and yield of immobilised-enzyme reactions in electro-membrane enzyme reactors where the enzyme is entrapped in an unstirred gel slab by application of electric fields. Here an attempt to integrate the electro-membrane reactor with a fuel cell stack in order to build-up an autonomous (independent of external power source) portable multi-functional unit (MFU) is described. The MFU comprises two subunits: the first one that generates the electric current (the fuel cell stack) and the second one that consumes it and simultaneously performs a biotransformation - the reactor. The coupling of both sub-units within this kind of MFU is primarily realized by means of the electric current passing through both parts of the s" . . "22340" . . . "Schulty, T." . . "1"^^ . . . "A fuell cell and an enzyme electro-membrane reactor combined to a multifunctional unit" . . "A fuell cell and an enzyme electro-membrane reactor combined to a multifunctional unit"@en . . "RIV/60461373:22340/05:00014512!RIV06-GA0-22340___" . "A fuell cell and an enzyme electro-membrane reactor combined to a multifunctional unit"@cs . "Integrace n\u011Bkolika jednotkov\u00FDch operac\u00ED do jednoho za\u0159\u00EDzen\u00ED obvykle p\u0159in\u00E1\u0161\u00ED \u0159adu v\u00FDhod: zkr\u00E1cen\u00ED transportn\u00EDch vzd\u00E1lenost\u00ED, sn\u00ED\u017Een\u00ED spot\u0159eby pomocn\u00FDch materi\u00E1l\u016F, zv\u00FD\u0161en\u00ED \u00FA\u010Dinnosti atp. V d\u0159\u00EDv\u011Bj\u0161\u00EDch prac\u00EDch jsme prok\u00E1zali, \u017Ee rychlost a v\u00FDt\u011B\u017Eek enzymov\u00E9 reakce m\u016F\u017Ee b\u00FDt efektivn\u011B \u0159\u00EDzen elektrick\u00FDm polem p\u0159ilo\u017Een\u00FDm k syst\u00E9mu. V t\u00E9to pr\u00E1ci jsou presentov\u00E1ny v\u00FDsledky studia mo\u017Enosti integrace palivov\u00E9ho \u010Dl\u00E1nku a enzymov\u00E9ho elektro-membr\u00E1nov\u00E9ho reaktoru do podoby multifunk\u010Dn\u00ED jednotky."@cs . "[FEF94D36C72A]" . "510851" . . . .